High-temperature oxidation properties of economical and lightweight Fe-Cr-Ni-Al medium-entropy alloy

초록

This study investigated the microstructure, high-temperature oxidation properties and mechanism of non-equiatomic Fe-Cr-Ni-Al medium entropy alloy (MEA). Microstructural observation of MEA identified coarse grains of mm scale, and cuboidal precipitates with an average size of 125 nm were evenly distributed within grains. Phase analysis confirmed that the alloy consisted of a Fe-Cr matrix (BCC structure) and B2 Ni-Al pre-cipitate. High temperature isothermal oxidation tests measured oxidation weight of 0.08 mg/cm2 at 800 degrees C, 0.17 mg/cm2 at 900 degrees C, 0.22 mg/cm2 at 1000 degrees C, and 0.47 mg/cm2 at 1100 degrees C. Compared to other alloys tested with similar conditions, Fe-Cr-Ni-Al MEA presented by this study achieves economic benefits with relatively excellent high-temperature oxidation resistance. The outstanding high-temperature oxidation resistance of the MEA pre-sented by this study is due to the evenly distributed dense stable Al2O3 layer formed regardless of temperature conditions. In addition, the alloy did not have breakaway oxidation, which can occur as oxidation progresses.

키워드